Testing device



C. CHEDISTER TESTING DEVIC'E Feb. 8, 1944.

Filed March 7, 1941 4 Sheets-Sheet 1 YC: IN VEV TOR.

Feb. 8, 1944. c. CHEDISTER 2,341,312

TESTING DEVICE Filed March '7, 1941 4 Sheets-Sheet 2 INVENTOR.

Feb. 8, 1944. c. CHEDISTER TESTING DEVICE Filed March 7, 1941 4 Sheets-Sheet 5 INVENTOR. C.

Feb. 8, 1944. c. CHEDISTER TESTING DEVICE Fled March 7. 1941 4 Sheets-Sheet 4 INVENTDR.

ATTORNEY.

Patented Feb. 8, 1944 umrso STATES; PATENT OFFICE z, s41312 :rssrmo msvrcr.

Conklin; Chedister, Llvingsto, N. J. Application March 7, 1941, Serinl No. az1ss 19 Claims. (01. 35-11) set forth in part hereinafter and in part will be obvious herefrom, or may be learned by practice with the invention, the same being realized and attained bymeans of the instrumentalities and combinations pointed out in the appended claims.

The invention consists in the novel parts, constructions, arrngements, combinations an'd improvements herein shown and described.

The accompanying drawings, referred to herein and constltuting a part hereof, illustrate one embodiment of the invention, and together with the description, serve to explain the principles of the invention.

Of the drawings:

Fig. 1 is a partially diagrammatlc, fragmentary top plan view of an automobile driver-testing mechanism embodying the invention;

Fig. 2 is a diagrammatic view of the controls, recording means and associated circuits emploved in said mechanism;

Flg. 3 is an enlarged detail, in perspective, of the projection mirror and controls;

Fig. 4 is a fragmentary plan view of a film having a. steering control track printed thereon; and

Fig. 5 is a. fragmentary diagrammatio view of a. modifled form of steering and speed control means for positioning the projected picture.

This invention relates to automatic equipment for teaching a.nd testing drivers or pilots of automotive vehicles and is primarily intended for use in such equipment wherein the subject is placed at the controls of en automotive vehicle and subjected to realistic stimuli which present to him the illusion of travel over a vehicle course wherein are encountered incidents representative of those naturally occurring when driving such a vehicle. While primarily directed to use in mechanisms simulating automobile travel, the invention is also applicable to other types of automotive locomotion, such as aircraft, bicycles, etc.

One object of the present invention is to provide improved meansfor imparting the illusion of lateral travel and turning movements, such as occur in steering an automobile laterally with respect to a. road on which the vehicle is travellng. Another object of the invention is to provide means ior detecting or analyzing errors or deviatlons in steering a. vehicle over a. predetermined course.

In certain respects the inventlon comprises improvements over the testing mechanism disclosed and claimed in Durha.m and Finnegan application Ser. No. 154,234, filed July 17, 1937; Patent Number 2,269,444 J anuary 131942; in other respects it comprises an independent invention. In said application of Durham et 111., the driver testing ineens comprise the projection of motion' picture of a road or 13. route to be travlled, the projection of the road scene creating the illusion of i'orward travel. A member indicating the position of the vehicle relative to the road is subject to the operation of a. steering control, while deviating movements are also automatically imparted to said member by means independent of the steering control. The subject uses the steering control to correct for said deviations, while the coordinated moving road scene carries out the illusion of steering.over the road and tuming corners. At the same time the subject's steering movements or errors are recorded in printed form.

I have discovered that a more realistic illusion and feeling of lateral travel and turnlng with respect to a projected road scene may be provided by shifting the projected scene itself laterally with respect to a stationary vehicle member, such as the silhouette of a car hoed. With such a relationship between the moving scene and the car hood, the subject or driver experences the same illusion of lateral travel over the road as in actually driving a car. In actual driving the car moves across the stationary road whereas in the present invention the road moves beneath the stationary car, so that the feeling and visual impression are the same, especially when the illusion of forward travel simultaneously is created by projection of a. road picture taken while moving along the road.

The inveution further comprises means for imparting lateral devia.ting movements to the road scene by a. control which preferably corresponds to the course or curvilinear pattern of the road itself. Lateral movement may also be imparted to the projected scene by the steering wheel or other subject-operated control so that by proper steering manipulation the subject will overcoxne or compensate for the imparted movements and thereby hold the road scene stationary with respect to the car silhouette. When correctly handled, the visual impression is that of steering properly around curves or objects in the roa d. If the subject over-steers or under-steers the road scene will be shifted laterally in amounts equal to the algebraic difierences between the steering movement and the imparted movement'and thereby place the car silhouette at points in the road scene oi the line of proper steering as determined .by the course pattern. Recording means are provided for making a record of said diierences in steering at all or any desired times, Said record preierably being in permanent printed i'orm.

Another object of the invention is to provide means direetly associated with the projected fllrn of theroad scene for providing the eurvilinear control pattern of the course and tor imparting from said pattern the deviating movements required ior providing the steering illusion and recording operations described above. In earlier attempts to provide such. deviating movements for a. road scene, it has been customary to have a eam ei. iixed pattern assoeiated with the road film and werking synchronously withthe projection of said film. That arrangement was costly in requiring the careful machining of pattern cams and furtherrnore was impractical beeause any break in the film or change in its length by even so much as a single frame would throw the film projection out of synchronism with the pattem er om thereby introducing an error which be came cumulative during repeated projections of said film. In the present invention I provide a controlling pattem directly en the projection film itseli' so that said pattern is necessarily always synchcronized with the film. Said pattem is preierably a recorded track of varying light transmissibility along one edge of the film, analogous to the sound track for sound motion pictures and said pattern track is adapted to actuate the appmpriate controls through photoeleetric means. Consequently, the expensive machine werk heretofore required for providing steering track pattem cams is eliminated and much greater flexibility and economy in the mechanism is provided.

Another object of the invention is to provide novel and improved means Ior projecting a road scene of the class described and for imparting lateral shifting movements te said projected scene. By means of the present invention I make it unneeessary te swing er pivot or impart lateral movement to the projector itseli, said deviating movements being imparted to a small, light and easily moved mirror mounted in the projection beam. By so utilizing a mirror it is possible to shift the projected picture laterally without emDloying any heavy mechanical parts or substantial power and, within the range 01' projeetion required for testing mechanism of the class described, there is little or no distortion of the projected image. The convenience of moving the image and the accuraey of recording its lateral movements are greatly increased.

It will be understood that the foregoing general description and the following detailed description as well are exemplary and explanatory but are not restrictive of the invention.

Referring now in detail to the present pre ferredembodimerit of the invention, illustrated by way of example in the aecompanying drawings. Fig. 1 shows diagrammatieally those parts of an automobile driver testing or educating mechanism which are pertinent to the present invention. As embodied, a drivers seat I is positioned with respect to a steering wheel 2 in the eonventional manner. A hoed 3 corresponding to that of an automobile is positioned in iixed relation with respect to the driving seat in front of the steering wheel. Said hoed is preferably iormed and shaped so as to give from the drivers seat substantially the same appearance as the hoed 01 a car on the road. Just beyond the front end er nose of the hoed is mounted a projection sereen 5 upon which is projected the motion picture road to be used in creating the illusion of driving. The length and shape of the hoed 3 and the distance from the drivers seat to the sereen are all suitably calculated to provide the proper perspeotive so that when a moving road scene of the proper size is projeeted on said sereen the illusion of actually driving.the car along the road is created and maintained. Said road scene is preferably one photographed cinematically from a vehicle moving along the road, the field of view of the camera being substantially that of the driver of the vehicle.

Mean s for projecting the metion picture scene upon the sereen Ii comprises the motion picture projector conventionally shown at |0. Said projector is mounted to cast its beam upon a mirror Il normally positioned with its plane at an angle of to the axis of the beam thereby te refiect the beam directly upon the sereen 5 as shown. The mirror H is mounted for pivotal movement about a vertical axis l2. As shown the mirror is fixed to rearwardly extending bracket members I3 which are fixed to the vertical axle member 12, the latter being joumaled in a lower supporting bracket arm I 4 and at its upper end passes through a journal bracket l5. Said brackets Mand I5 project from the plane of the supportng plate IS, which in turn is supported parallel to the main plate H, on which the projector 10 and the other main parts of the projeeting mechanism are mounted.

In accordanee with the invention means are provided for imparting pivotal movements to the mirror about the vertical axis I2 so as to shift the projected picture laterally across the sereen 5. Said pivotal movements are imparted to the mirror in one sense by movements of the steering wheel 2 and in the other sense in response to a predetermined pattern, preferably the steering course pattern of the route te be iollowed; said pattern being derved from a control track on the fllm itself as hereinafter described. For

- imparting these pivotal movements to the mirin its normal position lies parallel to the axis of the projeeted beam from the lens of the projector l0 and thereby holds the mirror at the normal 45 angle as shown in Fig. 1. The Ileld of coil 20 is subject to variations through actuations of the steering wheel 2 while the field oi' coil 2I is similarly influeneed from the steering pattern on the projeoted film.

Reierring first to the control of the field of coil 20 from the steering wheel 2, the coil is energized by means of a line circuit -comprising the wires 30 and 3I. Wire 31 is connected aeross a varlable resistance 32, the resistance thereof being varied by turning movements of the steering wheel, thereby te vary the fleld of coil 20 in aceordance with amounts correspondlng to the turning of the steering wheel. s embodied, the

steering wheel 2 is iixed to shaft 35 which has cd at the ends of bracket arm: 1! and having its upper surface in contact with a variabiy p o-- sitionable contact member 40. Contact member 40 is adapiedto swecpacross the surace of resistor, 32, the arcuate or sweeping movement being imparted therto bymovement of the steering wheel throuch the sezment 3I, member 40 being iixed to turn with shaft 30 by means of a supporting arm 4I projecting trom said shaft and carrying. a U:shaped bracket 42. The ends of contact member 40 are journaied tor rotary movement in bracket 42 as it slides across the face of resistor 32. It wil] therefore be clear that any movement of the steering wheel wil] impart a corresponding movement of the contact 40 across resistor 32 and thereby vary the fleld of mirror coil 20.

In many orms of the invention it is desirable to vary the speed of projection of the motion picture of the road to simulate verving speeds of travel therealong. In the present invention variations are imparted to the projector speed in response to movenients of an accelerator pedal 45 which is positioned adjacent the steering wheel 2 in the conventional arrangement. Through appropriate linkage comprising the bell crank 46, pivo'ted link 41, the accelerator pedal is adapted to control 2. variable resistance 48 and the projector motor. The contact member 40 is attached to the free end of the heil crank and moves across the contacts of the variable resistance as wiil be clear trom Fig. 2. As shown, the

circuit for the motor 50 of projector is in series with said variable resis'rance 48 and thereby the speed of the projector is controlled.

In accordance with the invention means are provided ior coordinating the steering wheei control of mirror coil 20 with the varying speed of projection effected by the accelerator contrl 45, and for ncreasing the transverse movement of the projected picture with increases in projector speed at any given turning of the steering vvheei.

As embodied, the beil crank 46 of the accelerator control is fixed to a transverse shaft 55 and said shaft also is flxed to and supports the bracket arms 39 of the steering resistance 32. As will be clear from Fig. 2, rotary movement of shai't 55 imparts a corresponding rocking movement to resistor 32. For insuring continued contact between the resistor 32 and the contact roller member 40, said member 40 is provided with an arcuate surface correspondng to perpheral are of member 32 so that contact between member 40 and member 32 is maintained at any posit on within the limits of movement 0! the 1atter.

It will be understood that when the resistor is positioned relatively near the axis of the steering segment 31, any turning of the steering wheei wil1 cause the contact member 40 to move over a relatvely iiinited portion of the resistor. Huwever, when the acceierator is depressed the outer part of contact roller 40, moving over a greater arc for any turning of the steering wheel, wil! consequently effect a greater change in the conciition of the mirror coil 20.

Refcrring now to the controls for the mirror coil 2 i, it wi1l be understood that Same is designed t) impart arbitrary deviating movements to the mirror (and thereby to the road scene) in accord ance with a pattern carried on the projected film itse1f.- Referring t o Fig. 4 it willbe seen that the motion picture film F is perforated at 60 on one side only, the opposite side or track 6| being unperi'orated and. havng imprinted photographpass through a suitable gate 12 lying across the caily thereon a track or pattem 02 of varylnz width. Said pattern 42 may be opaque while the remaining portion of the track 4| is transparent or, preferably, the pattem 02 is transparent while the remainder of the track 41 is opaque. In

.ment is imparted thereby to the mirror II. The

portion of tb ij eering pattern or track B--C is shown of maximum width (in practice 1%"), capable of imparting a maximum deviation in one direction to the mirror l| through the controlling coil 2]. In the section C-D of the steering track 01 pattern, said track diminishes to a minimum 01 zero width, thereby imparting a maximum deviation of the mirror in the opposite direction.

The deviations of the mirror Il eorresponding to the pattern 62 on the fi1m are effected by photo-electric controis so as to link the position of the mirror with that called for by the pattern on the film at any given moment. As embodied, the circuit 65 controlling the field of coil 2! is connected through a conventional amplifler 66 having tube 61 and condenser to the output of a photo-electric een 10. Said cel1 is positioned to receive the rays of an exciter lamp H which steering track or pattern 62 of the film F as it is fed from the projector i0.

As will be c1ear from the drawings, the amount of energy transmitted to the photo-cell 10 will depend upon the width of the track 62 and. consequently said track width wili determne the position of the mirror II in so far as the coil 2! is concerned. Thus when the track is of intermediate width, as in the section AB, the output of the photo-eiectric cel1 will be of intermediate extent and. thereby the coil 2! wil tend to hold the mirror in the neutral of 45 position. Consequently a track of said intermediate width will be utilized when it is not desired to move the projected picture off its normal axis with respect to the hood of the car 4 and consequently said inter mediate width track AB wil1 correspond to a iength of straight road, on which proper steering wouid require nomovement of the steerng wheel from the normal or straight-ahead position. For indcating a right-harid turn the full width track 3-0 energizes the ce1i 10 and causes the mirror to swing the maximum extent so as to throw thepicture on the sereen the maximum distance to the left as viewed by the driver. 'I'hat deviation of the picture wil1 require the subject to turn the steering whee1 to the right in order to hold the nose 4 of the hood of the car at the center line or appropriate point in the picture road for proper steering. Similarly when the track 62 diminishes to less than the intermediate width, as in section CD, the mirror is swung in the opposite direction, moving the picture road to the right. This requires the subject to turn the steering wheel 2 toward the left in order to compensatefor the deviation imparted by coil 2! and thereby, through the controls of coil 20, to brin-g the mirror to or hold t in the neutral or balanced position. Thus the mirror |I and ts by the width of the pattern 82 on the fl1m and the subject must continually steer with wheel 2 in order to prevent the picture road trom moving out from under the steering point 4 of the car hood. In this way the illusion of actual driving' and steering over a curving road or course is accurately simulated. By watching the character of the road unfolding in front of him and judging how it should be steered, a skillful driver will be able to hold the mirror |I practicallymotionless, thereby experiencing the illusion of travelling around curves while steering the car pioperly. However, if the drive'r neglects to turn the steering wheel sufllciently or over-steers, he

wil] experience the illusion of driving toward or off the side of the road. As the projector is driven at greater speed through the accelerator control 45, smaller deviations in steering produce relatively great errors because of the time relationship between the travel on the road and the angleof steering.

While a photo-electrical steering control track is preferably printed on the film F as shown, certain features of the invention may also be achieved by using a control pattem separate from the film, such as a separate tape or cam i'or imparting movements to the mirror, either photo-electrically or by direct mechanica] linkage. Such separate devices, however, have the disadvantage of requiring special synchro- .nization and coordination with the film F.

The invention also provides means for recording deviations of the mirror ll (corresponding to errors in steering or uncorrected devia.tions imparted by the pattern course 62). As embodied, a record sheet is diagrammatically shown in printing position between a printing segment 8! and a solenoid-actuated printing plunger or key 82. The printing segment 8! is provided with printing characters 82' on its periphery, said characters corresponding to any suitable or arbitrary scale for indicating errors in steering. For example, as shown the segment 8l is graduated from 0 to 9, the center or neutral position being at 4 i. e. between the characters 4 and 5. Steering deviations to the left, for example,.

wiil be indicated by the characters 0 to 4 and those to the right by 5 to 9.

Means are provided for positioning the printing segment 8| correspondingly to the position of the mirror II, the two being in complete correspondence at all times. As embodied, an actuating geared segment -85 is in driving engagement with a pinion 86 at the axis of the segment 8l. Segment 85 is pivoted at 81 and is provided with a yoke armature 08, the ends of which project into and form the cores oi coils 09 and 00, respectively. Coil 89 is electrically linked in parallel with coil 20 of the mirror controls and thus is energized and actuated in exact correspondence therewith while similar coil 90 is connected in parallel with circuit 65 of the mirror coil 2I. Thus the armature 88 is caused to pivot in direct correspondence with the mirror armature 22 and thereby the position of the printingsegment 8! is always the equivalent of that 01' the mirror I I.

The invention provides means for actuating the printing plunger or key 82 at any desired time so as to record the steering deviation indicated by the segment 8| at the moment 01. printing. Preferably the actuations 01' the plunger are timed to occur at predetermined points with reof the machine.

spect to the picture being projected trom the film F. For this purpose the film is provided with switch-actuating notchea 05 along one edge, said notches belng adapted to cooperate with the switch roller which is positioned to beat against the moving edge of the fllm. Said roller 96 is connected to the actuating arm of a microswitch 0'| which is posltioned to open and close a line circuit 88. A rectifier tube 60 is connected across the circuit. The circuit connects to the terminals of a solenoid 00 which actuates the printing plunger 82. Thus when the circuit 08 is closed by the micro-switch 9'I through contact of the roller 90 with a notch on the film, the printing plunger 82 is actuated to impress the paper against the opposite character of the printing segment 0l. For this printing opera tion. the paper may be provided with suitable impression carbon or the segment characters 02 may be inked by any suitable means not shown. If a plurality of impressions are desired upon the paper 80, suitable means (not shown) or feeding same between printings may be provided and if desired said means may be actuated trom the switch 06 or a. similar switch controlled irom movement of the film. Ii! periodic printings showing the position of the printing segment are desired, a suitable timing device, driven from a clock or trom the projector motor, may be provided to actuate the switch 91.

A modifled form of control for the mirror con trol 20 is shown in Fig. 5. This mechanism provides a more accurate and positve means ior controlling the position of the mirror through the combined Iunctions of the angle and extent of tuming of the steering wheel and the speed of the projected picture, i. e., the apparent speed of the vehicle along the road. As shown, the field 01' coil 20 is regulated from a variable resistance l00 in the coil circuit. The amount of resistance is varied by the position of an angularly-movable contact arm l0l which is actuated from a series motor I02 through reductlon 0 gearing I03 and shaft I04. The position of the contact arm I0l with respect to the resistance coil I00 and thereby the amount of resistance introduced into the coil 20 is regulated both by the speed and direction of rotation of the motor [02. In accordance with the invention the speed of the motor I 02 is made to correspond to the speed of the projected picture as determined by the position of the accelerator pedal 45. The motor speed is also regulated by the amount of turning imparted to the steering wheel 2 (i. e., the steering angle), while the direction of rotation of the motor is determined by the direc tion of turning of the steering wheel.

Referring flrst to the controls as influenced by the direction of tuming of the steering wheel, the steering wheel shaft is connected to drive a hori zontally-disposed shaft H0 as by frction dsc l|l spring pressed against roller H2 and splined to shatt IIO, or alternatively by suitable gearing. The friction drive is preferred because it obviates breakage or strain on the mechanism when a subject tends to oVer-steer or turn the steering wheel an excessive amount Or beyond the limits Means i'or imparting driving current to the armature I 05 Of the motor whenever the steering' wheel is tumed from a. central or neutral position comprises a double-pole, double-throw switch, the centra] member Il5 of which is pivoted at an intermediate point H6 while the outer end is provided with a roller H1 riding on a om |8 on the shaft H0. 'Iuming the steering wheel in one direction (say to the richt) trom the position shown will maintain the switch closed in the position shown and thereby determine the direction of flow of the current through the armature and over the circuit wires H9. 'Iumingin the other direction trom the neutral point will cause the roller to drop onto the narrower part of the cam II8, closing the switchthrough the iower pair of contacts and thereby reverse the direction of current through the circuit 9 and the armature of the motor.

Meens 1'or preventing any current flow through the motor except when the steering wheel has been tumed trom the central or neutral position comprises a switch arm I 20 mounted on the shatt IIO and positioned to sweep across the variable resistance coils |2I and |22. Said coils are separated and at the centra] or neutraiposition the contact arm lies between them and out of conthe steering wheel is tumed in the opposite di' rection, the contact l20 encounters and moves across the resistance |22 thereb3; varyng the amount of energ y supplied to the motor in accordance with the amount the steering wheel is turned from the neutral or straight-ahead direction. Direction of rotation of motor "12 is determined by position or switch I5, when actuated by cam IIB, to its raised or lowered positions. The directions of current from the line through one leg of circuit II9 to the right hand bush returning to switch II5 in its raised position, thence to fie1d of motor IU2, rotates the motor in one directon. Switch arm I is in its lower position reverses the direction of current feed through bushs 105, thereby reversing direction of motor I02.

Meens are also provided ior varying the speed of the motor 102 in accordance with the position 01 the accelerator pedal 45. As shown a variable resistance I25 is provided to be controlled by the position of the accelerator pedai through the movable contact arm 126 which is linked to the accelerator peda1. The circuit wire I2'l connects from the line through the variable resistance 125 to the contact arm |20 thereby varyng the supply of current through the field coils of the motor in accordance with the position of the accelerator pedal.

It will be seen therefore that the field of mirror contro1 coii 20 and therefore the positiouof the projection mirror H will depend upon the operation 01. the steering wheel 2 in conjunction with the accelerator control of the vehicle. when the steering wheel is tumed in a given directon. say

the combined eiects of the variable resistance |2I (subject to the position 01 the accelerator pedal) and the resistance 12! or in, subject to the amount of turning of the steering wheel. Thugan extensive turning of the wheel over a large angle will of itself cause the vehicie to appear to move sharply toward the edge of the road at a given speed.- while anincrease of the apparent speed caused by depressing the accelerator pedal will intensify the apbarent movement across the road at that or any given stoering angle, just as occrs in actually driving a car.

The invention in its broeder aspects is not limited to the specific mechanisms shown and described but departures may be made thereirom within the scope 01 the accompanying claims without departinz from the principies of the invention and without sacriiicing its chiet advantazes.

What I claim is:

1. In a driver testing machine in combination means for presenting a scene to the subjectbeing tested, asubject-or'uerated control, means responsi ve to actuations of said control by the subject for moving the scene and other means for imparting movements to said scene independent of those mparted thereto by the subject through alctuation oi, said control,

2. In a driver testing machine in combination means .for presenting a scene to the subject being tested, a vehicie steering control, means responsive to actuations o said control by the sub- J'ect for moving the scene lateraliy and other means ior imparting latera1 movements to said scene independent of these imparted thereto by the subject through actuation of said control.

3. In a driver testing machine in combination means for presentng a raad scene to the subject being tested, means for imparting movement to said scene to create the illusion of iorward travel over the road, a vehicle steerins control, means responsive to actuations of said control by the subject for moving the scene laterally and other means cperated independently of the subject ifor imparting lateral movements to said scene.

4. In a driver testing mechanism in combination means or projecting a. scene before the subject being tested, a mirror in the path of projection or changing the direction of said path, a

controi member operated by the subject and to the right, that determines the direction of crease or diminution of the strength of coii 2!|. The speed of movement of that arm will depend on the speed of the motor and that in turn upon means actuated by operation of said control for moving the mirror to vary the position of the projected scene.

5.In a driver testing mechansm in combination means for projecting a scene before the subject being tested, a mirror in the path of projection or changing the direction of said path{said mirror being angularly movable to vary the position of the projected scene and means operated by the subject for moving the mirror.

6. In a driver testing mechanism in combination means for projecting a scene before the subject being tested, a mirror in the Pflth of projection for changing the direction of said path,- said mirror being angularly movable to vary the position of the projectedscene and control means for imparting movements to the mirror to vaxy the position of the scene according to a predetermined pattern.

7. In a. driver testing mechansm in combination means for projecting a scene before the subject being tested, a mirror in the path of projection ior changing the direction of said tested, an angularly movable mirror in the path of projection, and control means for imparting angular movements to said mirror to shift the road scene lateraliy with respect to the subject according to a. pattern corresponding to the curves in the road portrayed in the picture.

9. In a driving testing mechanism in combination means for projecting a motion picture of a changing road scene before the subject being tested, and angularly movable mirror in the path of projection, control means for imparting angular movements to said mirror to shift the road scene laterally with respect to the subject according to a pattern corresponding to the curves in the roadportrayed in the picture and steering means operated by the subject for also varying the angular position of said mirror to give the illusion of steering around the curves in said r0ad scene.

10. In a testing machine in combintion a. motion picture projector, means for ieeding a iilm therethrough, a sereen for the projected picture positioned in view of a subject, meer: for varying the position of the projected picture on the sereen and control means carried by the film for governing said varying means.

11. In a testing machine in combination a motion picture projector, means for feeding a. film therethrough, a. screen for the projected picture positioned in view of a subject, photoelectric means for varying the position of the projected picture on the sereen, and a control track on the l1m for cooperating with said photoelectric means.

12.In a testing machine in combination a motion picture projector, means for ieeding a film therethrough, a screen for the projected picture positioned in view of a subject, an angulariy movable mirror in the path of projection, and means synchronized with the projection of the film for imparting movements to said mirror to vary the position of the projected picture.

13. In a testing machine in combination a motion picture projector, means for feeding a fllm therethrough, a sereen for the projecteci picture positioned in view 01! a, subject, an angularly movable mirror in the path of projection, control means carried by the film for imparting deviating angular movements to the mirror and means actuated by the. subject for imparting 0ther movements to the mirror.

14. A motion picture film for projection in a testing machine comprising pictures of a rond scene and a track of varying light characteristics carried by the iilm and corresponding to changes in direction of the road portrayed on the film.

15. In a driver testing machine in combination means for presenting a scene to the subject being tested, a vehicle steering control, means responsive to actuations of said control for moving the scene independent of those eifected by actuation of said steering control and other means for imparting movements to said scene, and recording means operable during the presentation of said scene for recording the steering operations of the subject viewing said scene.

16. In a testing machine in combination a motion picture projector and film i'or projecting a motion picture of a scene to be observed by the subject being tested and printing means for registering actions of the subject while viewing said scene, said means including a photoelectric device ifor controlling the operation of said printing means and a track of varying iight characteristics movable with the fllm for governing the operation of said photoelectric device.

17. In a testing machine in combination a motion picture projector, means for i'eeding a film therethrough, a control operable by a subject viewing the scene projected by said projector and means for registering operations of said control by the subject including a member for actuating said registering means, said member having contact with the film and means carried by the film for moving said contact member.

18. In a testing machine in combination a motion -picture projector, means for feeding 9. film therethrough, a control operable by a subject viewing the scene projected by said projector and means for registering operations 01' said control by the subject including a printing device, a switch for controlling actuation of said printer, said switch being in movable contact with the film and a notch on the film for moving the switch.

19. In a testing machine in combination a motion picture projector and fllm for projecting a scene to be observed by the subject being tested, a member operable by the subject, electrical control means responsive to movement of said member, other electrical control means responsive to a light-varying track carried by the film, and a member movable responsively to the combined electrical influences of said subject-operated control and said film-operated control.

CONKLING CHEDIS'I'ER. 

